Glass working machine



- Feb. 20, B. T. HEADLEY '51 A1. 1,948,218'

GLASS WORKING CHINE Original Filed Ji 27; 1914 15 sheets-sheet 1 1934- B. T. HEADLEY ET AL GLASS WORKING MACHINE Original Filed Jan. 27, 1914 15 Sheets-Sheet 2 Feb. 20, 1934. B, T HEADLEY AL 1,948,218

(GLASS WORKING MACHINE Original Fi led Jan. 27, 1914 l5 Sheets-Sheet 3 B. T. HEADLEY El AL Feb. 20, 1934.

GLASS WORKING MACHINE 15 Sheets-Sheet 4 Original Filed Jan. 27, 1914 [madam- Feb. 20, 1934.

B. T. HEADLEY El AL GLASS WORKING MACHINE Original Filed Jan. 27, 1914 15 Sheets-Sme t 5 Q Baymzpq Feb. 20, 1934. B. T. HEADLEY ET AL GLASS WORKING MACHINE 15 Sheets-Sheet 6 Original Filed Jan. 27, 1914 B. T. HEADLEY ET AL.

Feb. 20, 1934.

GLAS S WORKING MACHINE Original Filed Jan. 27, 1914 15 Sheets-Sheet 7 WMGGr- 3 B. T. 'HEADLEY ET AL 1,948,218

GLASS WORKING MACHINE Original Filed Jan. 27, 1914 15 Sheets-Sheet 8 VII/I 1,111,

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Feb. 20, 1934. B. 'r. HEADLEY El AL GLAS 5 WORKING MACHINE l5 Sheets-Sheet 9 Original Filed Jan. 27, 1914 3 B. r. HEADLEY El AL 1,948,218

GLASS WORKING MACHINE Original Filed Jan. 27, 1914 15 Sheets-Sheet 10 nigpiwxiii 5 g. \E\ 72w. W. W5 12% HTWm Feb. 20, 1934- mmmc gwm/ W B. T. HEADLEY El AL 1,948,218

GLASS WORKING MACHINE Original FiledJan. 27, 1914 15 Sheets-Sheet 12 Feb. 20, 1934.

farz'a fay i Lu 0 O Feb. 20, 1934. HEADLEY ET AL 1,948,218 I GLASS WORKING MACHINE Uriginal Filed Jan. 27, 1914 15 Sheets-Sheet 13 Feb. 20, 1934.

B. T. HEADLEY El" AL.

GLASS WORKING MACHINE Original Filed Jan. 27, 1914 15 Sheets-Sheet l4 Feb. 20, 1934. 1- D ET AL 1,948,218

GLASS, WORKING MACHINE Original Filed Jan. 27, 1914 I 15 sheets-sheet 15 Patented Feb. 20, 1934 PATENT OFFICE GLASS WORKING MACHINE v Benjamin T. Headley and Parke H. Thompson,

Millville, N. J., assignors, by mesne assignments, to Hartford-Empire Company, Hartford, Conn., a corporation of Delaware Continuation of application Serial No. 814.728, January 2'7, 1914. This application October 25, 1915. Serial No. 57,800

55 Claims.

Our invention relates to machinesemployed for making articles of hollow glassware, bottles and the like; and the object of our invention is to provide certain improvements in that class of machines in which the several operations are auto f which controls cutting mechanism performing the initial operation upon the glass, which operation, in the present invention, is immediately followed by the delivery of air to force the charge of glass into one end of a blank-mold having a suitable neck-moldstructure combined therewith and surrounding a mouth forming pin whereby a finished mouth and neck is imparted to the blank or parison. I I

These and other features of our invention will be more fully described hereinafter, reference being had to the accompanying drawings, in which: Figure 1 is a front elevationof a glass working machine embodying our invention; Fig. 2 is a planview of the same; Fig. 3 is a plan view, partly in section, on the line IIIIII, Fig. l;

Fig. 11 is a plan. view of a portion of the struc-- ture shown in Fig. 2, on a larger scale;

Fig. 5- IS a sectional view on the line V-:V,. employ-ed in positioning the blanbmoldz I 5 Fig. 2, on a larger scale;

,Fig. 6 is a sectional view on the line VI-VI, Fig. 5'; I

Fig. 6 is a view of the lower portion of the structure illustrated in Fig.5;

Fig. '7 is a sectional .view on the line VHVII, Fig. 2, on a'larger scale; Fig. '7 is a. view of the lower portion of the structure illustrated in Fig. '7;

Fig. 8 is a sectional view of-the blow-head shown in Fig. '7, on a larger scale;

Fig. 9 is a sectional vew on the line IX-IX, Fig. 2; I Fig. 10 is a'sectional view of the blow-head and 0 carrier shown in Fig. 9, on a larger scale;

Fig. 11 is a sectional view of the main table support showing part of the operating' mechanism therefor;

Fig. 12 is a'sectional view of the main.controlling valve;

'Fig. 13 is asectional view 'of the valve controlling the passage of air to the equalizing valve;

' Fig. 14 is a sectional view on the line XIV- XIV, Fig. 13; a 1

Fig. 15 is a sectionalvie'w of the equalizingfio valve for controlling the amount of air passing to the upper side of the cylinder disposed over the blank-mold;

Fig. 16 is a view of the valve controlling the mouth forming pin and the blow-head admitting air to the'mass ofglass in the blank-mold to force around said pin; d

'Fig. 1'7 is a sectional view on the line XVII- XVII, Fig. 16;

Figs. '18 and 19 are sectional views of an exhaust valve, of whichseveral are used in the machine; p v

Fig. 20 is a sectional view of the locking means for't'he mold-carrying table and the means for operating the same;

. Fig. 21 is a plan view of the cylinder and valve of the-lock controlling means;

mold;

Fig. 25 is a sectional view of a valve controlling 86 the return of the-machine to normal position;

Fig. 26 is a sectional view on the line XXVI XXVI, Fig. 25;

Fig. 27 is a sectional view of one of the valves Fig. 28 is a plan view of the valve controlling the opening and closing of the blank-molds;

Fig. 29 isa sectional view of said valve on the line XXIX-XXIX, Fig. 28;

Fig. 30 is'asecti'onal view of locking means for 05 the heads carrying the blank molds; I

Fig. 31 is a sectional view on the line XXXI-XXXI, Fig. 1-, showing the mold bottoms and their carriers; I

- Fig. 32 is a sectional view of a neck-mold;

Fig. 33 is a plan View, partly in section, illustrating. the several molds in the successive positior' aoccupied by the same in the operation of the machine, and

Fig. 34 is a diagrammatic plan view of the cylinders, valve structures, and the pipes conveying air to said several cylinders and valve structures for carrying on the various operations of the machine. v

The improved machine forming the subject of lie our invention comprises in general a central 1101- low standard 1, carrying a pedestal 2, supported by a ball-bearing 3, mounted upon a relatively fixed table 4, which table is suitably supported by.

a series of wheels so as to be capable of transfer,

' as may bedesired, to any portion of a shop.

, which may be equidistant from each other and of which connection and the proper application of constitute theseveral stations in the production of hollow glassware by the mechanism forming the subject of our invention. The plate '7 carries a sectional blank-mold 10 and a sectional blowmold 11. The sections of the blank-mold are journaled on pins 10 and 10 in axial alignment, carried by a rotatable sleeve 12, journaled in a bracket 13 mounted on the plate '7, and this mold is arranged to be rotated by suitable mechanism, hereinafter described, whereby the mold may be presented with its bottom upwardly disposed for the reception of a charge of glass, which is first forced into the lower portion of said mold around a-mouth-forming pin and within a neckmold operativel-y' combined with said blank-mold, subsequently shifted horizontally to a second position so as to present its upper end, still in the lowered position, to a blow-head designed to enlarge the opening in the neck end of the charge of glass, and finally reversed to bring the neck- .mold uppermost so that the blank may be transferred to a blow-mold.

In addition, the sections of the blank-mold may be swung horizontally to open and close the same; the sleeve 12 journaled in the bracket 13 constituting a cylinder receiving a piston 15 having a piston rod 16, to the outer end of which the sections of said mold are attached, and by means air to said cylinder such mold may be moved to or withdrawn from the charging position, as hereinafter described.

As shown in Figs. 4 and 5, the blank-mold is in the charging position, ready to receive the glass, and after the mold has been charged; the operator rests his gathering rod upon a lever 18 of glass shearing mechanism substantially like that disclosed in Patent No. 1,017,870, of February 20, 1912, including shears 19 which operate to cut the charge of glass from the gather in the manner set forth in said patent. It will be apparent that the lever 18 operates the valve 18 through the linkage 18 and that the valve 18 controls thesupply of actuating fluid to the cylinder 20 which operates the piston rod 20 for moving the shears. The return of a piston rod 20, effecting the opening of the shears for a fresh operation, automatically trips a valve 21, (shown in Fig. 12,) by engagement with its stem 22, which valve controls the main supply of air entering via a pipe a.

, Above the blank-mold is a cylinder 25, having a piston 26 carried by a hollow piston-rod 2''! having at its lower end a blow-head 28. The blow-head is lowered and raised by air entering said cylinder through pipes b and c. The hollow piston-rod receives air from a suitable source, which is introduced into said blank-mold for the purpose of forcing the glass in the same into a supplemental neck-mold 29 operatively connected with said blank-mold; a plug 30 from beneath the table 5 having been previously introduced into said neck-mold and forming a closure for the end of the same; said plug having a central mouth forming pin 31 whereby an initial recess is formed in the blank into which a charge of air is subsequently delivered, when said blank-mold is shifted to the second position, opening and cause the glass to fill said blankmold.

' Prior to shifting the blank-mold, the plug 30 is to enlarge said withdrawn, said plug being operatively connected to the end of a piston-rod 32 controlled by a piston in a cylinder 33, to which air is admitted for the operation thereof through pipes at and e. This constitutes a fluid pressure actuated device for forming a neck in the blank.

The glass is charged into the blank-mold when the latter is at position A, and the central cavity or'mouth of the neck is formed at this point. The table 5 is then moved to bring the blankmold to position B. When in this position, a cap 35 is lowered onto the bottom of the blank-mo1d; the latter being still inverted, said cap being carried by a link 36 attached to a piston-rod 3'7, havinga piston 38 mounted in a cylinder 39, which piston may be lowered to hold said cap in place by air admitted from a pipe 1, and raised by air admitted to the cylinder through a pipe 9, a spring 40 being also employed to assist in holding said piston in the elevated position. The link 36 may be connected to the cap 35 and the piston-rod 37 by ball and socket joints 41.

Below the blank-mold 10, a blow-head 45 is positioned, such blow-head comprising a sleeve 46 supported in the closed position bya spring.

[end of the mass of glass and force the latter into the blank-mold. As soon as this operation is concluded, the'blow-head is lowered and the cap is withdrawn, and then the blank-mold is moved to the third position C.

During this movement the position of the blank mold is shifted so as to bring the neckend uppermost. This is accomplished in the following manner: Mounted on the pedestal 1 is a mutilated bevel gear wheel 55, held in fixed position.- Carried by the end of the sleeve 12, is a bevel pinion 56 arranged to mesh with the two sections of teeth 57 and 57* on said gear wheel 55, forming racks, and when the blankmold starts to move to the third position, said pinion 56 comes into contact with the toothed section 5'7 and is moved thereby to rotate said sleeve 12 and shift the blank-mold. This action may not effect complete perpendicular positioning of the blank-mold, and to insure such position, we provide a circular .plate 60, carried by the sleeve 12, having two sets of ratchet teeth 61 and 61 A pawl 62 is disposed in engagement with the teeth 61, which pawl is carried by a piston 63 having an operating piston head 64, mounted in a cylinder 65. Air is admitted to said cylinder to raise the piston from a pipe I; such admission being controlled by a valve 66, having, a stem 66 with a head 67 which is actuat ed by a cam plate 68 carried by the frame of the machine and positioned to engage said valve 66,

carried by the table 5 with the blank-mold, as

said table approaches the limit of its partial movement to bring the blank-mold with the blank to the blowing position. When the plate 60 is at rest with the blank-mold in vertical position, said plate is locked by a pin 70, carried by a piston 71 mounted in a cylinder 72, said pin being moved to the locking position by a, spring 73 within said cylinder. Thepin is released by air admitted from a pipe m to act upon said piston against the action of the spring. The plate 60 preferably carries a pair of bushings 751 forming sockets for the reception of said pin in the two positions in which said plate 60 is placed.

Carried by the standard 1 of the machine is a rotary valve which comprises a collar. or sleeve 75, suitably fixed to said standard, and a movable portion 76, operatively connected to the rotating table 5 The fixed sleeve and rotary portion of said valve are provided with a series of passages, some of which are vertically disposed while others are annularly disposed; the latter being formed in the collar or sleeve 75. Air is admitted to the fixed member through pipes n and 0 leading from a main air drum 77 mounted on top of the standard 1.

The pressure'of motive fluid is constant in the pipes n and 0; being cut oif at intervals by the movement of the rotary portion of the valve. When it is desired toopen the blank-mold, air under pressure is directed to a pipe p from a groove 78 in the fixed portion of the valve, which parts are brought intoregistry-by movement of the mold carrying table 5, and. such air passes intovan annular channel 79 in the wall of the cylinder within the sleeve 12, thence to a channel 80 leading to the frontof the piston 15, to move the latter.

The outer end of the piston rod 16 carries a cross piece 81, having at its ends adjustable links 82 which are pivotally connected at 83 to the halves of the blank-mold 10, and when said piston 15 is moved as indicated, these halves will be opened, leaving the blank'suspended by a neck-mold 29 pivotally mounted on the stem 10*. In this position, the mold-carrying plate 7 is in line with a cylinder 85' having a suitable piston carrying a piston rod 86. Motive fluid is admitted to said cylinder through pipes q and r, and .when admitted through pipe q, the piston is shifted to move the piston rod toward the molds i and into contact with a pin 87,- hereinafter described.

The plate 7 also carries the blow-mold 11, which may be of the usual type, comprising half sections pivotally connected together by a pin whose lower end enters the plate 7. At the outer end of said plate 7 is a sliding head 91, adaptedto ways 92 in said plate and having rods 93 pivotally attached at 94 to the sections of the blow-mold. The head 91 carries the pin 87 which is engaged by the end of the piston rod 86, controlled by the piston in the cylinder 85 which is mounted on the relatively fixed portion of the machine, and when'these parts are in registry,

said piston is operated by the proper application of air to the cylinder through the pipe q to close the blow-mold. I i

Movable bottoms 95 are provided for the blowmolds, which bottoms may be carried by auxiliary plates 96 slidably mounted inthe inner ends of the plates 7; said plates 96' having stems 97 depending in slots 98' cut in the plates 7 and table 5; These stems have rollers 99 which are engaged by cams 100 and 100; the former moving the bottoms into position for registry with the blow-molds, while the latter move said bottoms out of such relation after a bottle, has been With a bottom in place, the blow-moldis now in position for the application of air to blow the blank to finished form. For this purpose, a blow-head 101 is, centered over the blow-mold; such blow-head being carried by a hollow stem 102 which is supported by a piston-rod 103 carried by a piston 104 in a cylinder 105. This piston is lowered by ,the application of air through apipe s, being cushioned'by a spring 106, and raised by air admitted through a pipe 1!. Air to blow the blank is admitted-througha pipe at leading from the main supply. The blow-head 101 consists of a movable sleeve portion 107 surrounding a plug 108 having cross passages 109 and a central vertical passage 110 above and communicating with the same; said passage 110 communicating with the hollow stem 102.

After the blowing, of the blank to finished form, the blow-head is raised by the admission of air through the pipe t; the pipe s being open to the exhaust, and themold carrying member is then ready; to be moved to thelfourth position D; the mold being .closed around the bottle. When the plate 7 reaches the fourth position, the, blow-mold is opened in the following manner. The table carries a bracket 115 upon which is mounted a cylinder 116, having ,a piston 117, carrying a piston-rod 118; pipes 12 and w delivering air to said cylinder for the purpose of moving the piston therein. Ihe piston rod 118 has a .block 119 grooved at 120 on its under side for engagement with the pin 87, and as the plate 7 approaches the fourth position, said block is in position for the pin 87 to move into engagement therewith. Immediately thereafter, air is admitted via the pipe 12 to the cylinder '116 for action upon the piston 117 carried by the pistonrod118; the latter moving out the sliding head 91 having the rods 93'connected to the halves of the blow-mold, thereby opening the latter removed from the neck-mold.

The neck mold is normally held in the closed position by a catch 125 held in place by a spring 126 in engagement-with the rear end of the same. The boy presses against this rear end with a suit-- able tool, releasing the catch and simultaneously .opening the mold at a single operation; the bottle being then supported by a suitable clamping device while the neck mold is opened. The bottle is then delivered to a boy for transfer to a lehr.

The blow-mold is then moved to the fifth position, E, upon the next movement of the table and allowed to cool. From the fifth position, the mold-carrying plate-7 is moved to the first position and the blank-mold is turned so as to bring it to the inverted position ready for the next charge. This turning is accomplished in a man- -ner precisely similar to the reversal of the filled -and freeing the finished bottle, which is then ton-rod. 132 has a pin 135 adapted to a S101} 136 in -the plug 30 with its mouth-forming pin 31.

.the equalizing valve an arm 137 carried by the hub of the table whereby the-forward movement of said pistonrod may move the table; said arm having a vertieallymovablepin 138 which is raised into holes 139 in said table when the latter is to be moved. This pin is held in place by a spring 140,-and is withdrawn by a piston-rod141 when the arm is to be retracted for fresh movement of the table; said piston-rod having a head 142 for engagement by jaws 143 carried by the pin 138, and

said parts registering when the arm 137 reaches the limit of its movement in effecting movement of the table. Air is admitted to a cylinder 144 in which is mounted a piston 145 carrying the piston-rod 141, via a pipe 3; to lower said piston; said piston being raised by air admitted to the cylinder via a pipe 2.

1 After the glass is dropped into the mold, the shears 19 are operated, and on the return movement of the shears, the valve 21, (Fig. 12) is tripped, allowing air to flow from the main air supply pipe a through said valve and through a pipe a. to one end of a valve casing 150, (Figs. 13 and 14), moving the valve 151 therein. to bring its port 152 into registry with a section a of said main air supply and a pipe a to allow air .to pass into the latter and its branches a, a-" and a leading to the under side of the equalizing valve 153, (Fig. 15), pressure cylinder 154 and one end of the valve 155, (Figs. 16 and 17). The air directed to the under side of the valve 153 raises the same, permitting air to flow from the main air supply pipe a through said valve 153 and pipe 1) to the upper end of the cylinder 25, lowering the blow-head 28 controlled thereby.

The air directed to the cylinder 154 has filled the latter; thereafter flowing through a pipe a" to the upper end of the equalizing valve 153 providing pressure on. the upper side of said valvev equal to the pressure on .the under side of the same; the upper side of the said valve having a larger area than the under side, upon the pressure being equalized the valve is necessarily lowered. The air directed to' thevalve 155 shifts the same, bringing a port 156 therein into registry with a pipe a The lowering of 153, previously described, exhauts the air from the upper end of the cylinder 25 and directs air to the lower end of said cylinder through the pipe 0 and valve 155 to one end of a valve 157, sliding the same in its casing 158, (Fig. 16), allowing air to exhaust from the lower end of the cylinders 33 and 51, (through pipe d) ,through pipe h to exhaust valve 159, (Figs. 18 and 19), and the upper end of cylinder 39, (Fig. 7), through' the pipe f and its branches; air under pressure being admitted through a pipe 6 and its branches to the upper ends of cylinders 33 and 51, valve 159, lower end of cylinder 39, valve 160, (Figs. 20 and 21 and cylinder 161,. (Fig. 22), and through a pipe 11 to other cylinders hereinafter described.

Air directed through pipe e to the upper end of cylinder 33 lowers the piston 32 controlling Air directed to the end of valve 159 exhausts the air from the lower end of cylinder 51; the pressure on the upper end of the. piston 50 in said cylinder lowering the blow-head 45 from beneath the blank-mold, while the air directed to the lower end of the piston 38 in the cylinder 39 raises the cap 35 from the top of the blank-mold.

Air flowing through the pipe e passes also to the valve 160 carried by the cylinder 162, lowering the piston 163 in said cylinder, thereby drawing the locking pin 164 out of the table. Air also flows through said valve 160 and the pipe a to the cylinder 161, drawing the locking pin 165 out of the carrier 166 for the plugs 30, also through a branch of the pipe a to mechanism hereinafter described. In lowering the piston'in the cylinder 33, the rod 32 connected to said piston strikes a lever 168, raising a valve 169, (Fig. 23). In raising the valve 169, air is exhausted from one end of cylinders 85, 116, 130, 144 and 170, and valve 171, of the character shown inFigs. 18 and 19, via pipe Y, and its branches q, '0, y, y and 11 air under pressure being admitted to the opposite ends of said cylinders 85, 130, 144, 170 and 105, and valve 172, (Figs. 18 and 19) via pipe Z, and its branches r, z, 2, c and 2 Air admitted to the cylinder 144 raises its piston-rod 141 into position with its head 142 ready to pull the table moving pin 138 out of contact with the table, (Fig. 11). Air admitted to the cylinder 105 and valve 172 raises the blow-head 101 from the-blow-mold 11 and moves said valve 172 so as to exhaust the air from the upper end of the cylinder 105. Air admitted to the cylinder 85 retracts the piston-rod 86 carried by the piston in said cylinder. Air admitted to the cylinders 130 and 170 serves to move the table 5 and carrier 166 simultaneously, one fifth of a revolution, bringing a fresh blank mold and a fresh plug with a mouth-forming pin in the bottom thereof, in line to receive a fresh charge of glass.

Under the influence of the air in the cylinder 130, the table moving arm 137 moves away from the valve 175, (Fig. 24), allowing the valve to be moved inits casing by the action a spring 176, thereby allowing air under pressure to flow from the pipe a to a pipe a through the valve 1'71, (Figs-18' and 19, previously moved'by the spring 177 after exhausting the air from its opexhaust of air from the cylinders 162 and 161; I

and pipe a The air being exhausted from the cylinder 162, the lock pin 164 is raised by a spring 164 against the bottom of the table 5, directly in the path of one of the apertures 164 in the same. The air being exhausted from the cylinder 161, the lock pin 165 is raised by a spring 165 against the bottom of the carrier 166 directly in the path of pne of the apertures 182 in the same. is open to exhaust the air from the cylinder 72, carried by the blank-mold structure lying at position B, (Fig. 33). The spring 73 forces the pin 70 against the circular plate 60 in path of one of the bushings 74 carried bysaid plate; the pin 70 entering said bushing when the blankmold is in the exact vertical position, locking said mold against further rotative movement.

Upon reaching the end of its travel, the table moving arm 137 strikes the stem 179 of a valve 180, (Figs. 25 and 26) admitting air from the pipe (1 through a pipe of to the opposite end of the valve casing 150, moving the'valve 151 in its When this occurs the pipe m casing, and permitting the exhaust of the air from the valve 153, Cylinder 154, and valve 155. The valve 155 is then moved by its spring 181, cutting oif the air supply from 'the pipe at to the valve 157; said valve 157 being moved by its spring 157 and permitting exhaust of theair from the top of the cylinders 33 and 51, valve 159, bottom of cylinder 39, and the branch of pipe 6 leading to the valve 160, cylinders 162 and 161, and pipe a ing pin 164 enters an aperture 164 in the table, and the locking pin 165 enters an aperture 182 in the carrier 166. This movementof the valve 157 allows air under pressure to be admitted to the bottom of the cylinder 33, raising the piston therein; the lever 168 is then released, and the valve 169 descends. In descending, said valve 169 permits exhaust of air from one end of the cylinders 144, 170, 130, 85 and 105, and valve 172, via the pipe Z and its branches as noted above, and admits air to the opposite ends of cylinders 170, 144, 116; 130 and 85, and valve 171.

Air being admitted to one end and exhausted from the other end of the cylinder 116, the blowmold 11, (position D), is caused to be opened. Air being admitted into one end and exhausted from the other end of the .cylinder 85, the blowmold 11, (position C), is caused to be closed around the blank previously formed in the blankmold.

Admitting air into the upper end of the cylinder 144 and exhausting from the lower end of the same, withdraws the pin 138 from the table, and air being admitted to the end of the cylinder 130, the table moving arm 137 is returned to its normal position. Air admitted to one end and exhausted from the other end of the cylinder 170, the piston therein returns to its normal position. Air admitted to the valve 171 causes the movement of v the same in its casing, (against the action of the spring 177) thereby effecting the exhaust from one end of'the cylinder 116. When the table moving arm returns to its normal position, it again strikes the stem of the 'valve 175, admitting air to the cylinder 105 to lower the blow-head 101 over the blow-mold 11.

When retracted, the table moving arm 137 strikes the lever 185 connected to the valve 160, (Figs. 20 and 21) moving the same in its casing, and placing the ports in position for admission of air to the cylinders 162 and 161, whereby the pins 138 and 165 may be withdrawn to permit the table 5 and carrier 166 to be moved by said arm 137.

The central valve comprising the collar 75 mounted on the main stem of the machine and the movable portion 76, controls the time of opening and closing the blank-molds mounted on the The blow-head 28 controlled by the cylinder 25 and the plug 30 controlled by cylinder 33 are then automatically withdrawn to the inoperatlve position, as previously described.

The table is then turned by the cylinder 130, bringing the partially formed article into position At this point, the lockaround the same.

B. In this position, a cap 35 is lowered over the blank-mold by the cylinder 39, and a blow-head 45 is brought up underneath the table by the cylinder 51, air is applied thereto, and the glass is blown up or counterblown into the blank-mold and against the cap 35 covering the same, en-

' larging the initial cavity already formed therein.

During this operation another charge is being compacted. in the succeeding mold at position A and simultaneously upon the termination of that compacting operation and the withdrawal of the pin 30, the cap 35 and the blow-head 45 are automatically withdrawn and the table is again moved by the cylinder 130 to position C. In traveling from position B to position C, the blank-mold is automatically reverted, as hereinbefore described,

and the sliding bottom of the blow-mold is moved into position by the cam 100. By the reverting of the blank-mold, the finished neck of the paritally'finished bottle is brought uppermost; being supported by the neck-mold 29. The pin looking the blank-mold in stationary posi tion is withdrawn by air directed from the pipe m, through a port 185 in the valve to a cylinder 72.

When in position C, the blank-mold is opened; the partially blown article being suspended in the neck-mold, and the blow-mold is then closed Opening of the blank-mold is effected by bringing a' port 186 into registry with a groove 78 in the valve 75. This allows air under pressure to pass through pipe p into one end of the cylinder 12; the exhaust from the opposite end passing through pipe p to a port 188 brought into registry withan exhaust groove 189 in the valve 75. The blow-mold is closed by the cylinder previously described. The blankmold before being opened is moved into an exactly vertical position after the pinion passes out of engagement with the teeth 57 of the mutilated gear, and the pawl 62 in engagement with the teeth 61 of the disk actuated by the piston 64 in the cylinder 65 turns the blank-mold on its pivot until the locking pin 70 enters its aperture in the blank-mold carrier 60. The air employed in the cylinders 65 is supplied to the same from a groove 190 in the valve 75; ports 191 being always in registry with said groove. The air is led from these ports through valves 66, one of which is shown in section in Fig. 27, by pipes cc,

which valves are operated at the proper time by the head 67 on the stems 66 of the same coming into contact with the fixed cam plate 68; the air after leaving said valves 66?" entering pipes 1 leading to the cylinders 65. During the final blowing at position C the charge in the succeeding blank mold at position B is being expanded to form a hollow parison and 'in the second'succeeding blankmold at position A a new charge is being compacted. In pos-tion C, the blow-head 101 is lowered by the cylinder 105, and raised again by the same cylinder after the operation of blowing the blank to the finished article is completed, after which the table is moved to position D.

- When in position D, the blow-moldis opened by movement of the piston rod controlled by the p'ston in cylinder 116, and the finished article is left hanging in the neck-mold 29, which is then opened by the mold boy who takes the finished bottle out of said mold; such bottle being subseauently placed in the usual lehr. The table 5 is then moved to position E, where the molds are allowed to cool. blank-1 19M is again closed by fluid under pres- 

